OBJECTIVE: To examine the effects of intraventricular pre-treatment with recombinant adeno-associated virus vectors encoding VEGF (rAAV-VEGF) on early stroke in a rat model of transient middle cerebral artery occlusion (tMCAO). METHODS: rAAV-VEGF, rAAV-null or physiologic saline was delivered into the lateral ventricle of 93 Wistar rats, respectively. Eight weeks later, the rats were subjected to tMCAO for 2 hours. During the early stage following ischemic reperfusion, intracranial pressure (ICP) and brain water content were measured to make a correlation analysis, T2-weighted MRI was performed to observe cerebral edema volume, and TTC-derived cerebral infarct volume and modified neurological severity scores (NSS) were determined to evaluate the therapeutic efficacy of rAAV-VEGF in tMCAO. RESULTS: Twenty-four hours following tMCAO, the rAAV-VEGF group, with VEGF overexpression in the rats brain, showed a significantly increase in ICP, brain water content and cerebral edema volume compared with two control groups (p<0.05). The ICP significantly correlated with the brain water content in the infarct hemisphere in all three groups during 24 hours following tMCAO (r=0.93, p<0.05). Forty-eight hours following tMCAO, a 1.3-fold larger infarct volume and 1.3-fold higher NSS were observed in the rAAV-VEGF group than both control groups (p<0.05). CONCLUSION: Our results indicate that intraventricular rAAV-VEGF pre-treatment can result in deleterious intracranial hypertension and augment secondary ischemic insults at the early stage of tMCAO, and pre-ischemic VEGF gene transfer via intraventricular approach may not be a favorable therapeutic strategy for tMCAO which should be adopted with caution or avoided in experimental stroke.
OBJECTIVE: To examine the effects of intraventricular pre-treatment with recombinant adeno-associated virus vectors encoding VEGF (rAAV-VEGF) on early stroke in a rat model of transient middle cerebral artery occlusion (tMCAO). METHODS: rAAV-VEGF, rAAV-null or physiologic saline was delivered into the lateral ventricle of 93 Wistar rats, respectively. Eight weeks later, the rats were subjected to tMCAO for 2 hours. During the early stage following ischemic reperfusion, intracranial pressure (ICP) and brain water content were measured to make a correlation analysis, T2-weighted MRI was performed to observe cerebral edema volume, and TTC-derived cerebral infarct volume and modified neurological severity scores (NSS) were determined to evaluate the therapeutic efficacy of rAAV-VEGF in tMCAO. RESULTS: Twenty-four hours following tMCAO, the rAAV-VEGF group, with VEGF overexpression in the rats brain, showed a significantly increase in ICP, brain water content and cerebral edema volume compared with two control groups (p<0.05). The ICP significantly correlated with the brain water content in the infarct hemisphere in all three groups during 24 hours following tMCAO (r=0.93, p<0.05). Forty-eight hours following tMCAO, a 1.3-fold larger infarct volume and 1.3-fold higher NSS were observed in the rAAV-VEGF group than both control groups (p<0.05). CONCLUSION: Our results indicate that intraventricular rAAV-VEGF pre-treatment can result in deleterious intracranial hypertension and augment secondary ischemic insults at the early stage of tMCAO, and pre-ischemic VEGF gene transfer via intraventricular approach may not be a favorable therapeutic strategy for tMCAO which should be adopted with caution or avoided in experimental stroke.
Authors: Adnan Ghori; Vincent Prinz; Melina Nieminen-Kehlä; Simon H Bayerl; Irina Kremenetskaia; Jana Riecke; Hanna Krechel; Thomas Broggini; Lea Scherschinski; Tamar Licht; Eli Keshet; Peter Vajkoczy Journal: Transl Stroke Res Date: 2022-02-17 Impact factor: 6.800
Authors: S Lanfranconi; F Locatelli; S Corti; L Candelise; G P Comi; P L Baron; S Strazzer; N Bresolin; A Bersano Journal: J Cell Mol Med Date: 2009-12-08 Impact factor: 5.310